SU528525A1 - The method of measurement and stabilization of the magnetic field - Google Patents

Description

one

The invention relates to the field of measuring and stabilizing magnetic fields and is used in the development of instruments operating in a wide range of magnetic fields.

Methods are known for measuring and stabilizing magnetic fields using ush and nuclear magnetic resonance in a flowing fluid. Known methods have the meaning, the measurement error is 1.

Also known are methods for measuring and stabilizing a magnetic field, consisting in the polarization of the cores of a liquid working substance in a magnetic field, moved it to the area of the measured and stabilized field by two identical flows, superposing each of the flows of an oscillating magnetic field, creating the working magnetization substances in which the information on the magnitude and sign of the induction deviation at the selected point of the measured and stabilized zeros from the resonance of the 0 and -th value and the subsequent formation of the electric -parameter signal containing this information.

Known methods also have low accuracy of measurement and stabilization.

In order to improve the accuracy of the proposed method, the working substance is transported to the region of the analyzing constant field in two separate streams, an analyzing high frequency field and a low frequency antiphase magnetic field of the same frequency and amplitude are superimposed on each flow

an electrical signal caused by the reaction of the analyzing fields to the state of magnetization of both streams.

Figure 1 shows the implementation of the proposed method.

The device contains a polarizing magnet 1, a stabilizing electromagnet 2, pipelines 3 with a polarizing liquid (water 1). In the field of the electromagnet 2, the nutation sensors 4 are located, and in the analyzer magnet 5 there are sensors consisting of modulating coils 6 and high-frequency coils 7. The latter are connected in parallel, and the modeling coils 6 are in-line. Stabilizing Electromagnet

2 is powered by a winding 8. Nutation sensors 4 are connected to a generator 9. A winding 8 is connected to an adjustable power supply 10, which is connected to a synchronous detector 11 connected by a first input to the output of a modulation generator 12. The second output of the synchronous detector 11 is connected to the generator 13 of the modeling oscillations, from which the modulation e of the coil 6 is fed. The device operates as follows.

Water flowed through a polarisable magnet